# include <bitcoin/address.h>
# include <bitcoin/base58.h>
# include <bitcoin/script.h>
# include <bitcoin/tx.h>
# include <ccan/cast/cast.h>
# include <ccan/tal/str/str.h>
# include <common/addr.h>
# include <common/bech32.h>
# include <common/json_command.h>
# include <common/json_helpers.h>
# include <common/jsonrpc_errors.h>
# include <common/key_derive.h>
# include <common/param.h>
# include <common/pseudorand.h>
# include <common/status.h>
# include <common/utils.h>
# include <common/utxo.h>
# include <errno.h>
# include <hsmd/hsmd_wiregen.h>
# include <inttypes.h>
# include <lightningd/bitcoind.h>
# include <lightningd/chaintopology.h>
# include <lightningd/hsm_control.h>
# include <lightningd/json.h>
# include <lightningd/jsonrpc.h>
# include <lightningd/lightningd.h>
# include <lightningd/log.h>
# include <lightningd/options.h>
# include <lightningd/peer_control.h>
# include <lightningd/subd.h>
# include <wallet/wallet.h>
# include <wallet/walletrpc.h>
# include <wally_bip32.h>
# include <wire/wire_sync.h>
/* May return NULL if encoding error occurs. */
static char *
encode_pubkey_to_addr ( const tal_t * ctx ,
const struct pubkey * pubkey ,
bool is_p2sh_p2wpkh ,
/* Output: redeemscript to use to redeem outputs
* paying to the address .
* May be NULL if redeemscript is do not care . */
u8 * * out_redeemscript )
{
char * out ;
const char * hrp ;
struct sha256 h ;
struct ripemd160 h160 ;
u8 * redeemscript ;
bool ok ;
if ( is_p2sh_p2wpkh ) {
redeemscript = bitcoin_redeem_p2sh_p2wpkh ( ctx , pubkey ) ;
sha256 ( & h , redeemscript , tal_count ( redeemscript ) ) ;
ripemd160 ( & h160 , h . u . u8 , sizeof ( h ) ) ;
out = p2sh_to_base58 ( ctx ,
chainparams ,
& h160 ) ;
} else {
hrp = chainparams - > bip173_name ;
/* out buffer is 73 + strlen(human readable part),
* see common / bech32 . h */
out = tal_arr ( ctx , char , 73 + strlen ( hrp ) ) ;
pubkey_to_hash160 ( pubkey , & h160 ) ;
/* I am uncertain why this is so for direct SegWit
* outputs , but this is how listaddrs worked prior to
* this code being refactored . */
redeemscript = tal_dup_arr ( ctx , u8 ,
( u8 * ) & h160 , sizeof ( h160 ) ,
0 ) ;
ok = segwit_addr_encode ( out , hrp , 0 , h160 . u . u8 , sizeof ( h160 ) ) ;
if ( ! ok )
out = tal_free ( out ) ;
}
if ( out_redeemscript )
* out_redeemscript = redeemscript ;
else
tal_free ( redeemscript ) ;
return out ;
}
enum addrtype {
ADDR_P2SH_SEGWIT = 1 ,
ADDR_BECH32 = 2 ,
ADDR_ALL = ( ADDR_P2SH_SEGWIT + ADDR_BECH32 )
} ;
/* Extract bool indicating "p2sh-segwit" or "bech32" */
static struct command_result * param_newaddr ( struct command * cmd ,
const char * name ,
const char * buffer ,
const jsmntok_t * tok ,
enum addrtype * * addrtype )
{
* addrtype = tal ( cmd , enum addrtype ) ;
if ( json_tok_streq ( buffer , tok , " p2sh-segwit " ) )
* * addrtype = ADDR_P2SH_SEGWIT ;
else if ( json_tok_streq ( buffer , tok , " bech32 " ) )
* * addrtype = ADDR_BECH32 ;
else if ( json_tok_streq ( buffer , tok , " all " ) )
* * addrtype = ADDR_ALL ;
else
return command_fail ( cmd , JSONRPC2_INVALID_PARAMS ,
" '%s' should be 'bech32', 'p2sh-segwit' or 'all', not '%.*s' " ,
name , tok - > end - tok - > start , buffer + tok - > start ) ;
return NULL ;
}
static struct command_result * json_newaddr ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct json_stream * response ;
struct pubkey pubkey ;
enum addrtype * addrtype ;
s64 keyidx ;
char * p2sh , * bech32 ;
u8 * b32script ;
if ( ! param ( cmd , buffer , params ,
p_opt_def ( " addresstype " , param_newaddr , & addrtype , ADDR_BECH32 ) ,
NULL ) )
return command_param_failed ( ) ;
keyidx = wallet_get_newindex ( cmd - > ld ) ;
if ( keyidx < 0 ) {
return command_fail ( cmd , LIGHTNINGD , " Keys exhausted " ) ;
}
if ( ! bip32_pubkey ( cmd - > ld - > wallet - > bip32_base , & pubkey , keyidx ) )
return command_fail ( cmd , LIGHTNINGD , " Keys generation failure " ) ;
b32script = scriptpubkey_p2wpkh ( tmpctx , & pubkey ) ;
if ( * addrtype & ADDR_BECH32 )
txfilter_add_scriptpubkey ( cmd - > ld - > owned_txfilter , b32script ) ;
if ( * addrtype & ADDR_P2SH_SEGWIT )
txfilter_add_scriptpubkey ( cmd - > ld - > owned_txfilter ,
scriptpubkey_p2sh ( tmpctx , b32script ) ) ;
p2sh = encode_pubkey_to_addr ( cmd , & pubkey , true , NULL ) ;
bech32 = encode_pubkey_to_addr ( cmd , & pubkey , false , NULL ) ;
if ( ! p2sh | | ! bech32 ) {
return command_fail ( cmd , LIGHTNINGD ,
" p2wpkh address encoding failure. " ) ;
}
response = json_stream_success ( cmd ) ;
if ( deprecated_apis & & * addrtype ! = ADDR_ALL )
json_add_string ( response , " address " ,
* addrtype & ADDR_BECH32 ? bech32 : p2sh ) ;
if ( * addrtype & ADDR_BECH32 )
json_add_string ( response , " bech32 " , bech32 ) ;
if ( * addrtype & ADDR_P2SH_SEGWIT )
json_add_string ( response , " p2sh-segwit " , p2sh ) ;
return command_success ( cmd , response ) ;
}
static const struct json_command newaddr_command = {
" newaddr " ,
" bitcoin " ,
json_newaddr ,
" Get a new {bech32, p2sh-segwit} (or all) address to fund a channel (default is bech32) " , false ,
" Generates a new address (or both) that belongs to the internal wallet. Funds sent to these addresses will be managed by lightningd. Use `withdraw` to withdraw funds to an external wallet. "
} ;
AUTODATA ( json_command , & newaddr_command ) ;
static struct command_result * json_listaddrs ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct json_stream * response ;
struct pubkey pubkey ;
u64 * bip32_max_index ;
if ( ! param ( cmd , buffer , params ,
p_opt ( " bip32_max_index " , param_u64 , & bip32_max_index ) ,
NULL ) )
return command_param_failed ( ) ;
if ( ! bip32_max_index ) {
bip32_max_index = tal ( cmd , u64 ) ;
* bip32_max_index = db_get_intvar ( cmd - > ld - > wallet - > db ,
" bip32_max_index " , 0 ) ;
}
response = json_stream_success ( cmd ) ;
json_array_start ( response , " addresses " ) ;
for ( s64 keyidx = 0 ; keyidx < = * bip32_max_index ; keyidx + + ) {
if ( keyidx = = BIP32_INITIAL_HARDENED_CHILD ) {
break ;
}
if ( ! bip32_pubkey ( cmd - > ld - > wallet - > bip32_base , & pubkey , keyidx ) )
abort ( ) ;
// p2sh
u8 * redeemscript_p2sh ;
char * out_p2sh = encode_pubkey_to_addr ( cmd ,
& pubkey ,
true ,
& redeemscript_p2sh ) ;
// bech32 : p2wpkh
u8 * redeemscript_p2wpkh ;
char * out_p2wpkh = encode_pubkey_to_addr ( cmd ,
& pubkey ,
false ,
& redeemscript_p2wpkh ) ;
if ( ! out_p2wpkh ) {
abort ( ) ;
}
// outputs
json_object_start ( response , NULL ) ;
json_add_u64 ( response , " keyidx " , keyidx ) ;
json_add_pubkey ( response , " pubkey " , & pubkey ) ;
json_add_string ( response , " p2sh " , out_p2sh ) ;
json_add_hex_talarr ( response , " p2sh_redeemscript " ,
redeemscript_p2sh ) ;
json_add_string ( response , " bech32 " , out_p2wpkh ) ;
json_add_hex_talarr ( response , " bech32_redeemscript " ,
redeemscript_p2wpkh ) ;
json_object_end ( response ) ;
}
json_array_end ( response ) ;
return command_success ( cmd , response ) ;
}
static const struct json_command listaddrs_command = {
" dev-listaddrs " ,
" developer " ,
json_listaddrs ,
" Show addresses list up to derivation {index} (default is the last bip32 index) " ,
false ,
" Show addresses of your internal wallet. Use `newaddr` to generate a new address. "
} ;
AUTODATA ( json_command , & listaddrs_command ) ;
static void json_add_utxo ( struct json_stream * response ,
const char * fieldname ,
struct wallet * wallet ,
const struct utxo * utxo )
{
const char * out ;
json_object_start ( response , fieldname ) ;
json_add_txid ( response , " txid " , & utxo - > txid ) ;
json_add_num ( response , " output " , utxo - > outnum ) ;
json_add_amount_sat_compat ( response , utxo - > amount ,
" value " , " amount_msat " ) ;
if ( utxo - > is_p2sh ) {
struct pubkey key ;
bip32_pubkey ( wallet - > bip32_base , & key , utxo - > keyindex ) ;
json_add_hex_talarr ( response , " redeemscript " ,
bitcoin_redeem_p2sh_p2wpkh ( tmpctx , & key ) ) ;
}
json_add_hex_talarr ( response , " scriptpubkey " , utxo - > scriptPubkey ) ;
out = encode_scriptpubkey_to_addr ( tmpctx , chainparams ,
utxo - > scriptPubkey ) ;
if ( ! out )
log_broken ( wallet - > log ,
" Could not encode utxo %s:%u%s! " ,
type_to_string ( tmpctx ,
struct bitcoin_txid ,
& utxo - > txid ) ,
utxo - > outnum ,
utxo - > close_info ? " (has close_info) " : " " ) ;
else
json_add_string ( response , " address " , out ) ;
if ( utxo - > spendheight )
json_add_string ( response , " status " , " spent " ) ;
else if ( utxo - > blockheight ) {
json_add_string ( response , " status " , " confirmed " ) ;
json_add_num ( response , " blockheight " , * utxo - > blockheight ) ;
} else
json_add_string ( response , " status " , " unconfirmed " ) ;
json_add_bool ( response , " reserved " ,
utxo_is_reserved ( utxo ,
get_block_height ( wallet - > ld - > topology ) ) ) ;
json_object_end ( response ) ;
}
void json_add_utxos ( struct json_stream * response ,
struct wallet * wallet ,
struct utxo * * utxos )
{
for ( size_t i = 0 ; i < tal_count ( utxos ) ; i + + )
json_add_utxo ( response , NULL , wallet , utxos [ i ] ) ;
}
static struct command_result * json_listfunds ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct json_stream * response ;
struct peer * p ;
struct utxo * * utxos , * * reserved_utxos ;
if ( ! param ( cmd , buffer , params , NULL ) )
return command_param_failed ( ) ;
response = json_stream_success ( cmd ) ;
utxos = wallet_get_utxos ( cmd , cmd - > ld - > wallet , OUTPUT_STATE_AVAILABLE ) ;
reserved_utxos = wallet_get_utxos ( cmd , cmd - > ld - > wallet , OUTPUT_STATE_RESERVED ) ;
json_array_start ( response , " outputs " ) ;
json_add_utxos ( response , cmd - > ld - > wallet , utxos ) ;
json_add_utxos ( response , cmd - > ld - > wallet , reserved_utxos ) ;
json_array_end ( response ) ;
/* Add funds that are allocated to channels */
json_array_start ( response , " channels " ) ;
list_for_each ( & cmd - > ld - > peers , p , list ) {
struct channel * c ;
list_for_each ( & p - > channels , c , list ) {
json_object_start ( response , NULL ) ;
json_add_node_id ( response , " peer_id " , & p - > id ) ;
/* Mirrors logic in listpeers */
json_add_bool ( response , " connected " ,
channel_active ( c ) & & c - > connected ) ;
json_add_string ( response , " state " ,
channel_state_name ( c ) ) ;
if ( c - > scid )
json_add_short_channel_id ( response ,
" short_channel_id " ,
c - > scid ) ;
json_add_amount_sat_compat ( response ,
amount_msat_to_sat_round_down ( c - > our_msat ) ,
" channel_sat " ,
" our_amount_msat " ) ;
json_add_amount_sat_compat ( response , c - > funding ,
" channel_total_sat " ,
" amount_msat " ) ;
json_add_txid ( response , " funding_txid " ,
& c - > funding_txid ) ;
json_add_num ( response , " funding_output " ,
c - > funding_outnum ) ;
json_object_end ( response ) ;
}
}
json_array_end ( response ) ;
return command_success ( cmd , response ) ;
}
static const struct json_command listfunds_command = {
" listfunds " ,
" utility " ,
json_listfunds ,
" Show available funds from the internal wallet " ,
false ,
" Returns a list of funds (outputs) that can be used by the internal wallet to open new channels or can be withdrawn, using the `withdraw` command, to another wallet. "
} ;
AUTODATA ( json_command , & listfunds_command ) ;
struct txo_rescan {
struct command * cmd ;
struct utxo * * utxos ;
struct json_stream * response ;
} ;
static void process_utxo_result ( struct bitcoind * bitcoind ,
const struct bitcoin_tx_output * txout ,
void * arg )
{
struct txo_rescan * rescan = arg ;
struct json_stream * response = rescan - > response ;
struct utxo * u = rescan - > utxos [ 0 ] ;
enum output_status newstate =
txout = = NULL ? OUTPUT_STATE_SPENT : OUTPUT_STATE_AVAILABLE ;
json_object_start ( rescan - > response , NULL ) ;
json_add_txid ( response , " txid " , & u - > txid ) ;
json_add_num ( response , " output " , u - > outnum ) ;
json_add_num ( response , " oldstate " , u - > status ) ;
json_add_num ( response , " newstate " , newstate ) ;
json_object_end ( rescan - > response ) ;
wallet_update_output_status ( bitcoind - > ld - > wallet , & u - > txid , u - > outnum ,
u - > status , newstate ) ;
/* Remove the utxo we just resolved */
rescan - > utxos [ 0 ] = rescan - > utxos [ tal_count ( rescan - > utxos ) - 1 ] ;
tal_resize ( & rescan - > utxos , tal_count ( rescan - > utxos ) - 1 ) ;
if ( tal_count ( rescan - > utxos ) = = 0 ) {
/* Complete the response */
json_array_end ( rescan - > response ) ;
was_pending ( command_success ( rescan - > cmd , rescan - > response ) ) ;
} else {
bitcoind_getutxout (
bitcoind - > ld - > topology - > bitcoind , & rescan - > utxos [ 0 ] - > txid ,
rescan - > utxos [ 0 ] - > outnum , process_utxo_result , rescan ) ;
}
}
static struct command_result * json_dev_rescan_outputs ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct txo_rescan * rescan = tal ( cmd , struct txo_rescan ) ;
if ( ! param ( cmd , buffer , params , NULL ) )
return command_param_failed ( ) ;
rescan - > response = json_stream_success ( cmd ) ;
rescan - > cmd = cmd ;
/* Open the outputs structure so we can incrementally add results */
json_array_start ( rescan - > response , " outputs " ) ;
rescan - > utxos = wallet_get_utxos ( rescan , cmd - > ld - > wallet , OUTPUT_STATE_ANY ) ;
if ( tal_count ( rescan - > utxos ) = = 0 ) {
json_array_end ( rescan - > response ) ;
return command_success ( cmd , rescan - > response ) ;
}
bitcoind_getutxout ( cmd - > ld - > topology - > bitcoind , & rescan - > utxos [ 0 ] - > txid ,
rescan - > utxos [ 0 ] - > outnum , process_utxo_result ,
rescan ) ;
return command_still_pending ( cmd ) ;
}
static const struct json_command dev_rescan_output_command = {
" dev-rescan-outputs " ,
" developer " ,
json_dev_rescan_outputs ,
" Synchronize the state of our funds with bitcoind " ,
false ,
" For each output stored in the internal wallet ask `bitcoind` whether we are in sync with its state (spent vs. unspent) "
} ;
AUTODATA ( json_command , & dev_rescan_output_command ) ;
struct {
enum wallet_tx_type t ;
const char * name ;
} wallet_tx_type_display_names [ ] = {
{ TX_THEIRS , " theirs " } ,
{ TX_WALLET_DEPOSIT , " deposit " } ,
{ TX_WALLET_WITHDRAWAL , " withdraw " } ,
{ TX_CHANNEL_FUNDING , " channel_funding " } ,
{ TX_CHANNEL_CLOSE , " channel_mutual_close " } ,
{ TX_CHANNEL_UNILATERAL , " channel_unilateral_close " } ,
{ TX_CHANNEL_SWEEP , " channel_sweep " } ,
{ TX_CHANNEL_HTLC_SUCCESS , " channel_htlc_success " } ,
{ TX_CHANNEL_HTLC_TIMEOUT , " channel_htlc_timeout " } ,
{ TX_CHANNEL_PENALTY , " channel_penalty " } ,
{ TX_CHANNEL_CHEAT , " channel_unilateral_cheat " } ,
{ 0 , NULL }
} ;
# if EXPERIMENTAL_FEATURES
static const char * txtype_to_string ( enum wallet_tx_type t )
{
for ( size_t i = 0 ; wallet_tx_type_display_names [ i ] . name ! = NULL ; i + + )
if ( t = = wallet_tx_type_display_names [ i ] . t )
return wallet_tx_type_display_names [ i ] . name ;
return NULL ;
}
static void json_add_txtypes ( struct json_stream * result , const char * fieldname , enum wallet_tx_type value )
{
json_array_start ( result , fieldname ) ;
for ( size_t i = 0 ; wallet_tx_type_display_names [ i ] . name ! = NULL ; i + + ) {
if ( value & wallet_tx_type_display_names [ i ] . t )
json_add_string ( result , NULL , wallet_tx_type_display_names [ i ] . name ) ;
}
json_array_end ( result ) ;
}
# endif
static void json_transaction_details ( struct json_stream * response ,
const struct wallet_transaction * tx )
{
struct wally_tx * wtx = tx - > tx - > wtx ;
json_object_start ( response , NULL ) ;
json_add_txid ( response , " hash " , & tx - > id ) ;
json_add_hex_talarr ( response , " rawtx " , tx - > rawtx ) ;
json_add_u64 ( response , " blockheight " , tx - > blockheight ) ;
json_add_num ( response , " txindex " , tx - > txindex ) ;
# if EXPERIMENTAL_FEATURES
if ( tx - > annotation . type ! = 0 )
json_add_txtypes ( response , " type " , tx - > annotation . type ) ;
if ( tx - > annotation . channel . u64 ! = 0 )
json_add_short_channel_id ( response , " channel " , & tx - > annotation . channel ) ;
# endif
json_add_u32 ( response , " locktime " , wtx - > locktime ) ;
json_add_u32 ( response , " version " , wtx - > version ) ;
json_array_start ( response , " inputs " ) ;
for ( size_t i = 0 ; i < wtx - > num_inputs ; i + + ) {
struct bitcoin_txid prevtxid ;
struct wally_tx_input * in = & wtx - > inputs [ i ] ;
bitcoin_tx_input_get_txid ( tx - > tx , i , & prevtxid ) ;
json_object_start ( response , NULL ) ;
json_add_txid ( response , " txid " , & prevtxid ) ;
json_add_u32 ( response , " index " , in - > index ) ;
json_add_u32 ( response , " sequence " , in - > sequence ) ;
# if EXPERIMENTAL_FEATURES
struct tx_annotation * ann = & tx - > input_annotations [ i ] ;
const char * txtype = txtype_to_string ( ann - > type ) ;
if ( txtype ! = NULL )
json_add_string ( response , " type " , txtype ) ;
if ( ann - > channel . u64 ! = 0 )
json_add_short_channel_id ( response , " channel " , & ann - > channel ) ;
# endif
json_object_end ( response ) ;
}
json_array_end ( response ) ;
json_array_start ( response , " outputs " ) ;
for ( size_t i = 0 ; i < wtx - > num_outputs ; i + + ) {
struct wally_tx_output * out = & wtx - > outputs [ i ] ;
struct amount_asset amt = bitcoin_tx_output_get_amount ( tx - > tx , i ) ;
struct amount_sat sat ;
/* TODO We should eventually handle non-bitcoin assets as well. */
if ( amount_asset_is_main ( & amt ) )
sat = amount_asset_to_sat ( & amt ) ;
else
sat = AMOUNT_SAT ( 0 ) ;
json_object_start ( response , NULL ) ;
json_add_u32 ( response , " index " , i ) ;
json_add_amount_sat_only ( response , " satoshis " , sat ) ;
# if EXPERIMENTAL_FEATURES
struct tx_annotation * ann = & tx - > output_annotations [ i ] ;
const char * txtype = txtype_to_string ( ann - > type ) ;
if ( txtype ! = NULL )
json_add_string ( response , " type " , txtype ) ;
if ( ann - > channel . u64 ! = 0 )
json_add_short_channel_id ( response , " channel " , & ann - > channel ) ;
# endif
json_add_hex ( response , " scriptPubKey " , out - > script , out - > script_len ) ;
json_object_end ( response ) ;
}
json_array_end ( response ) ;
json_object_end ( response ) ;
}
static struct command_result * json_listtransactions ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct json_stream * response ;
struct wallet_transaction * txs ;
if ( ! param ( cmd , buffer , params , NULL ) )
return command_param_failed ( ) ;
txs = wallet_transactions_get ( cmd - > ld - > wallet , cmd ) ;
response = json_stream_success ( cmd ) ;
json_array_start ( response , " transactions " ) ;
for ( size_t i = 0 ; i < tal_count ( txs ) ; i + + )
json_transaction_details ( response , & txs [ i ] ) ;
json_array_end ( response ) ;
return command_success ( cmd , response ) ;
}
static const struct json_command listtransactions_command = {
" listtransactions " ,
" payment " ,
json_listtransactions ,
" List transactions that we stored in the wallet " ,
false ,
" Returns transactions tracked in the wallet. This includes deposits, "
" withdrawals and transactions related to channels. A transaction may have "
" multiple types, e.g., a transaction may both be a close and a deposit if "
" it closes the channel and returns funds to the wallet. "
} ;
AUTODATA ( json_command , & listtransactions_command ) ;
static bool in_only_inputs ( const u32 * only_inputs , u32 this )
{
for ( size_t i = 0 ; i < tal_count ( only_inputs ) ; i + + )
if ( only_inputs [ i ] = = this )
return true ;
return false ;
}
static struct command_result * match_psbt_inputs_to_utxos ( struct command * cmd ,
struct wally_psbt * psbt ,
const u32 * only_inputs ,
struct utxo * * * utxos )
{
* utxos = tal_arr ( cmd , struct utxo * , 0 ) ;
for ( size_t i = 0 ; i < psbt - > tx - > num_inputs ; i + + ) {
struct utxo * utxo ;
struct bitcoin_txid txid ;
if ( only_inputs & & ! in_only_inputs ( only_inputs , i ) )
continue ;
wally_tx_input_get_txid ( & psbt - > tx - > inputs [ i ] , & txid ) ;
utxo = wallet_utxo_get ( * utxos , cmd - > ld - > wallet ,
& txid , psbt - > tx - > inputs [ i ] . index ) ;
if ( ! utxo ) {
if ( only_inputs )
return command_fail ( cmd , LIGHTNINGD ,
" Aborting PSBT signing. UTXO %s:%u is unknown (and specified by signonly) " ,
type_to_string ( tmpctx , struct bitcoin_txid ,
& txid ) ,
psbt - > tx - > inputs [ i ] . index ) ;
continue ;
}
/* Oops we haven't reserved this utxo yet! */
if ( ! utxo_is_reserved ( utxo , get_block_height ( cmd - > ld - > topology ) ) )
return command_fail ( cmd , LIGHTNINGD ,
" Aborting PSBT signing. UTXO %s:%u is not reserved " ,
type_to_string ( tmpctx , struct bitcoin_txid ,
& utxo - > txid ) ,
utxo - > outnum ) ;
tal_arr_expand ( utxos , utxo ) ;
}
return NULL ;
}
static struct command_result * param_input_numbers ( struct command * cmd ,
const char * name ,
const char * buffer ,
const jsmntok_t * tok ,
u32 * * input_nums )
{
struct command_result * res ;
const jsmntok_t * arr , * t ;
size_t i ;
res = param_array ( cmd , name , buffer , tok , & arr ) ;
if ( res )
return res ;
* input_nums = tal_arr ( cmd , u32 , arr - > size ) ;
json_for_each_arr ( i , t , arr ) {
u32 * num ;
res = param_number ( cmd , name , buffer , t , & num ) ;
if ( res )
return res ;
( * input_nums ) [ i ] = * num ;
tal_free ( num ) ;
}
return NULL ;
}
static struct command_result * json_signpsbt ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct command_result * res ;
struct json_stream * response ;
struct wally_psbt * psbt , * signed_psbt ;
struct utxo * * utxos ;
u32 * input_nums ;
if ( ! param ( cmd , buffer , params ,
p_req ( " psbt " , param_psbt , & psbt ) ,
p_opt ( " signonly " , param_input_numbers , & input_nums ) ,
NULL ) )
return command_param_failed ( ) ;
/* Sanity check! */
for ( size_t i = 0 ; i < tal_count ( input_nums ) ; i + + ) {
if ( input_nums [ i ] > = psbt - > num_inputs )
return command_fail ( cmd , JSONRPC2_INVALID_PARAMS ,
" signonly[%zu]: %u out of range " ,
i , input_nums [ i ] ) ;
}
/* We have to find/locate the utxos that are ours on this PSBT,
* so that the HSM knows how / what to sign for ( it ' s possible some of
* our utxos require more complicated data to sign for e . g .
* closeinfo outputs */
res = match_psbt_inputs_to_utxos ( cmd , psbt , input_nums , & utxos ) ;
if ( res )
return res ;
if ( tal_count ( utxos ) = = 0 )
return command_fail ( cmd , LIGHTNINGD ,
" No wallet inputs to sign " ) ;
/* FIXME: hsm will sign almost anything, but it should really
* fail cleanly ( not abort ! ) and let us report the error here . */
u8 * msg = towire_hsmd_sign_withdrawal ( cmd ,
cast_const2 ( const struct utxo * * , utxos ) ,
psbt ) ;
if ( ! wire_sync_write ( cmd - > ld - > hsm_fd , take ( msg ) ) )
fatal ( " Could not write sign_withdrawal to HSM: %s " ,
strerror ( errno ) ) ;
msg = wire_sync_read ( cmd , cmd - > ld - > hsm_fd ) ;
if ( ! fromwire_hsmd_sign_withdrawal_reply ( cmd , msg , & signed_psbt ) )
fatal ( " HSM gave bad sign_withdrawal_reply %s " ,
tal_hex ( tmpctx , msg ) ) ;
response = json_stream_success ( cmd ) ;
json_add_psbt ( response , " signed_psbt " , signed_psbt ) ;
return command_success ( cmd , response ) ;
}
static const struct json_command signpsbt_command = {
" signpsbt " ,
" bitcoin " ,
json_signpsbt ,
" Sign this wallet's inputs on a provided PSBT. " ,
false
} ;
AUTODATA ( json_command , & signpsbt_command ) ;
struct sending_psbt {
struct command * cmd ;
struct utxo * * utxos ;
struct wally_tx * wtx ;
} ;
static void sendpsbt_done ( struct bitcoind * bitcoind UNUSED ,
bool success , const char * msg ,
struct sending_psbt * sending )
{
struct lightningd * ld = sending - > cmd - > ld ;
struct json_stream * response ;
struct bitcoin_txid txid ;
struct amount_sat change ;
if ( ! success ) {
/* Unreserve the inputs again. */
for ( size_t i = 0 ; i < tal_count ( sending - > utxos ) ; i + + ) {
wallet_unreserve_utxo ( ld - > wallet ,
sending - > utxos [ i ] ,
get_block_height ( ld - > topology ) ) ;
}
was_pending ( command_fail ( sending - > cmd , LIGHTNINGD ,
" Error broadcasting transaction: %s. "
" Unsent tx discarded %s " ,
msg ,
type_to_string ( tmpctx , struct wally_tx ,
sending - > wtx ) ) ) ;
return ;
}
wallet_transaction_add ( ld - > wallet , sending - > wtx , 0 , 0 ) ;
/* Extract the change output and add it to the DB */
wallet_extract_owned_outputs ( ld - > wallet , sending - > wtx , NULL , & change ) ;
response = json_stream_success ( sending - > cmd ) ;
wally_txid ( sending - > wtx , & txid ) ;
json_add_hex_talarr ( response , " tx " , linearize_wtx ( tmpctx , sending - > wtx ) ) ;
json_add_txid ( response , " txid " , & txid ) ;
was_pending ( command_success ( sending - > cmd , response ) ) ;
}
static struct command_result * json_sendpsbt ( struct command * cmd ,
const char * buffer ,
const jsmntok_t * obj UNNEEDED ,
const jsmntok_t * params )
{
struct command_result * res ;
struct sending_psbt * sending ;
struct wally_psbt * psbt ;
struct lightningd * ld = cmd - > ld ;
if ( ! param ( cmd , buffer , params ,
p_req ( " psbt " , param_psbt , & psbt ) ,
NULL ) )
return command_param_failed ( ) ;
sending = tal ( cmd , struct sending_psbt ) ;
sending - > cmd = cmd ;
psbt_finalize ( psbt ) ;
sending - > wtx = psbt_final_tx ( sending , psbt ) ;
if ( ! sending - > wtx )
return command_fail ( cmd , LIGHTNINGD ,
" PSBT not finalizeable %s " ,
type_to_string ( tmpctx , struct wally_psbt ,
psbt ) ) ;
/* We have to find/locate the utxos that are ours on this PSBT,
* so that we know who to mark as used .
*/
res = match_psbt_inputs_to_utxos ( cmd , psbt , NULL , & sending - > utxos ) ;
if ( res )
return res ;
for ( size_t i = 0 ; i < tal_count ( sending - > utxos ) ; i + + ) {
if ( ! wallet_reserve_utxo ( ld - > wallet , sending - > utxos [ i ] ,
get_block_height ( ld - > topology ) ) )
fatal ( " UTXO not reservable? " ) ;
}
/* Now broadcast the transaction */
bitcoind_sendrawtx ( cmd - > ld - > topology - > bitcoind ,
tal_hex ( tmpctx ,
linearize_wtx ( tmpctx , sending - > wtx ) ) ,
sendpsbt_done , sending ) ;
return command_still_pending ( cmd ) ;
}
static const struct json_command sendpsbt_command = {
" sendpsbt " ,
" bitcoin " ,
json_sendpsbt ,
" Finalize, extract and send a PSBT. " ,
false
} ;
AUTODATA ( json_command , & sendpsbt_command ) ;